A drive gear assembly for a roll that is detachably supported in a machine body, the assembly comprising a drive gear mounted for a rotation about a stationary axis in the machine body, a driven gear mounted on an end portion of the roller, and a bearing formed in the machine body for supporting said end portion in an operative position in which the drive gear meshes with the driven gear, the assembly further comprising by a safety cover that is pivotally supported on the machine body to be movable between an active position in which it covers at least a part of the periphery of the driven gear, except a portion where the drive gear meshes with the driven gear, and an open position in which it permits an insertion of the end portion of the roll into the bearing, the cover being elastically biased into the open position and having an engagement surface arranged to be engaged by at least one of the roll and the driven gear for holding the cover in the active position as long as the roll is in the operative position.

To carry out accurate defect inspection over a wide area, a defect inspection device (1) includes: a radiation source section (2) configured to emit an electromagnetic wave (4) to a separator roll (10); and a sensor section (3) configured to detect the electromagnetic wave (4) that the radiation source section (2) has emitted to the separator roll (10), the sensor section (3) being configured to detect the electromagnetic wave (4) before and after the separator roll is moved relative to the radiation source section (2).

To carry out accurate defect inspection over a wide area, a defect inspection device (1) includes: a radiation source section (2) configured to emit an electromagnetic wave (4) to a separator roll (10); and a sensor section (3) configured to detect the electromagnetic wave (4) that the radiation source section (2) has emitted to the separator roll (10), the sensor section (3) being configured to detect the electromagnetic wave (4) before and after the separator roll is moved relative to the radiation source section (2).

A repair system that includes a handheld device comprising a first extruder tip having an interior passageway extending between an inlet and a tip outlet, wherein the inlet is configured to receive a solid thermoplastic material and the tip outlet is configured to dispense a fluidic thermoplastic material; a nozzle surrounding the first extruder tip to form an annulus between an interior surface of the nozzle and an exterior surface of the first extruder tip; and a heater that is configured to heat the interior passageway of the first extruder tip such that the solid thermoplastic material becomes the fluidic thermoplastic material. In some embodiments, the repair system also includes a gas source in fluid communication with the annulus such that a skirt-shaped curtain of gas extends from the annulus and in a direction towards the tip outlet of the extruder tip.

A paper sheet handling system includes a reception unit 11 configured to receive a plurality of paper sheets, a taking-in unit 10 configured to take in, one by one, the paper sheets received by the reception unit 11, a recognizing and counting unit 55 configured to recognize and count the paper sheets taken in by the taking-in unit 10, a handling unit configured to handle the paper sheets recognized by the recognizing and counting unit 55, the handling unit including stackers 60a to 60d, rejection units 61a and 61b, a bundling unit 250, a transport unit 70, and a cassette storing unit 300, and an operation/display unit 59 configured to input a confirmation signal for confirming count data on the paper sheets recognized by the recognizing and counting unit 55. The paper sheet handling system 100 is configured to accept the confirmation signal from the operation/display unit 59 on a condition that the last paper sheet is recognized by the recognizing and counting unit 55.

A paper sheet handling system includes a reception unit 11 configured to receive a plurality of paper sheets, a taking-in unit 10 configured to take in, one by one, the paper sheets received by the reception unit 11, a recognizing and counting unit 55 configured to recognize and count the paper sheets taken in by the taking-in unit 10, a handling unit configured to handle the paper sheets recognized by the recognizing and counting unit 55, the handling unit including stackers 60a to 60d, rejection units 61a and 61b, a bundling unit 250, a transport unit 70, and a cassette storing unit 300, and an operation/display unit 59 configured to input a confirmation signal for confirming count data on the paper sheets recognized by the recognizing and counting unit 55. The paper sheet handling system 100 is configured to accept the confirmation signal from the operation/display unit 59 on a condition that the last paper sheet is recognized by the recognizing and counting unit 55.

The invention relates to a method for monitoring a winding device (10), comprising the following steps: Displaying of a schematic illustration of functional units (20) of the winding device (10) on a display device (30), Detection of at least one operating parameter (40) of at least one functional unit (20) of the winding device (10), Displaying of the at least one detected operating parameter (40) on the display device (30) next to the schematic illustration of the corresponding functional unit (20).

The invention relates to a method for monitoring a winding device (10), comprising the following steps: Displaying of a schematic illustration of functional units (20) of the winding device (10) on a display device (30), Detection of at least one operating parameter (40) of at least one functional unit (20) of the winding device (10), Displaying of the at least one detected operating parameter (40) on the display device (30) next to the schematic illustration of the corresponding functional unit (20).

A device for providing improved measurements of logs. The device includes a feed path of the logs, configured to feed the logs in a direction orthogonal to the axis of the logs; and one or more pick-up members spaced from one another in a direction transverse to the feed path of the logs. The pick-up members are adapted to pick up individual logs from a pick-up position along the feed path; and transfer each log from the measuring position back to the feed path substantially in the position in which it was picked up.

A dispenser for rolled paper includes a shell mounted to a spindle assembly which is mounted to a wall for convenient access in a bathroom or other facility. The dispenser also includes a lid assembly mounted to the shell and spindle assembly for rotational or pivotal movement to and between closed and open configurations. When in the closed configuration, a free edge of the paper roll may be pulled from the roll and the roll rotates on the spindle assembly for dispensing the paper. The paper roll may be inspected and/or replaced by rotation of the lid assembly about a pivot pin to an open configuration. Cooperating cam and cam surfaces and the bias of a spring on the pivot pin urge the lid assembly away from the shell during rotation toward the open configuration to allow for proper clearance and positioning of the lid assembly relative to the shell.